Default file handlers:
Opening a file
open(FILEHANDLE, filename)
Where FILEHANDLE specifes the name for the file handler in which you will refer to your file and filename specifies the location of your file.
In the file name one can specify the various read/write modes.
Example | Description |
---|---|
open(FILEHANDLE, <filename) | opens the file for reading |
open(FILEHANDLE, >filename) | opens the file for writing |
open(FILEHANDLE, »filename) | opens the file for appending |
open(FILEHANDLE, +>filename) | opens the file for reading and writing |
open(FILEHANDLE, +<filename) | opens the file for reading and writing |
open(FILEHANDLE, +»filename) | opens the file for reading and writing |
File locking for I/O is provided using the flock() function. It is suggested to do the lock on a seperate file to prevent race conditions.
open(LOCK, ">write.lock") flock(LOCK, LOCK_EX); open(DATA, myFile); #...do work with the DATA file... close LOCK; close DATA;
Closing the LOCK handler automatically unlocks the semaphore. One can also use flock(LOCK, LOCK_UN) to do the unlocking specifically. The flock function takes the following operation parameters:
Operation | Description |
---|---|
LOCK_SH | requests a shared lock for a file, will block until lock is obtained |
LOCK_EX | requests an exclusive lock for a file, will block until lock is obtained |
LOCK_UN | unlocks the previously locked file |
LOCK_NB | should be bitwise 'or'-ed with either LOCK_SH or LOCK_EX and will result in a non-blocking lock |
So by now we know what an array looks like and maybe we've learned a few ways to manipulate it. Well, here's a trick to remove duplicate items in an array while preserving the item's order by using a hash.
Here's a couple of things you ought to know to fully understand the code:
@array1 = qw(one two one three four two); foreach (@array1) { push(@array2, $_) unless ($seen{$_}++); } print "@array2";
output: one two three four
The reason that we're using a hash here is to use its limitation (each key must be unique) to our advantage. In this example we use a hash called “seen” with keys set to each item in our array. For each string we test to see if that key already refers to a non-false value. The post-increment operator (++) adds one to that key's value, but only after the condition is checked. The result is that the first time a key string is encountered the condition is false (since the value is undefined) and the key is therefore pushed onto our second array. The key is then incremented and any further test of the key's value will evaluate “true” (i.e. non-zero, and non-empty).
Reference: http://www.perlcircus.org/arrays.shtml